Eclipses of the Sun can only occur when the Moon is near one of its two orbital nodes [1] during the New Moon phase. It is then possible for the Moon's penumbral, umbral or antumbral shadows to sweep across Earth's surface thereby producing an eclipse. There are four types of solar eclipses:
Total eclipses are visible from within the Moon’s umbral shadow while annular eclipses are seen within the antumbral shadow . These eclipses can be classified as central [3] or non-central as:
The recurrence of solar eclipses is governed by the Saros cycle. For more information, see Periodicity of Solar Eclipses.
During the 27th century CE[4], Earth will experience 227 solar eclipses. The following table shows the number of eclipses of each type over this period.
| Solar Eclipses: 2601 - 2700 | |||
| Eclipse Type | Symbol | Number | Percent |
| All Eclipses | - | 227 | 100.0% |
| Partial | P | 77 | 33.9% |
| Annular | A | 81 | 35.7% |
| Total | T | 64 | 28.2% |
| Hybrid | H | 5 | 2.2% |
Annular and total eclipses can be classified as either central or non-central as follows: 1) Central (two limits), 2) Central (one limit) or 3) Non-Central (one limit). The statistical distribution of these classes during the 27th century CE appears in the following three tables (no Hybrids are included since all are central with two limits).
| Annular and Total Eclipses | ||
| Classification | Number | Percent |
| All | 145 | 100.0% |
| Central (two limits) | 136 | 93.8% |
| Central (one limit) | 6 | 4.1% |
| Non-Central (one limit) | 3 | 2.1% |
| Annular Eclipses | ||
| Classification | Number | Percent |
| All Annular Eclipses | 81 | 100.0% |
| Central (two limits) | 73 | 90.1% |
| Central (one limit) | 5 | 6.2% |
| Non-Central (one limit) | 3 | 3.7% |
| Total Eclipses | ||
| Classification | Number | Percent |
| All Total Eclipses | 64 | 100.0% |
| Central (two limits) | 63 | 98.4% |
| Central (one limit) | 1 | 1.6% |
| Non-Central (one limit) | 0 | 0.0% |
There are a minimum of two and a maximum of five solar eclipses in every calendar year. Statistics for the number of eclipses each year during the century are listed below.
Number of Years with 2 Eclipses: 80
Number of Years with 3 Eclipses: 13
Number of Years with 4 Eclipses: 7
Two eclipses in same month: 2684 Oct
The longest and shortest central eclipses of the century as well as largest and smallest partial eclipses are listed in the below.
| Extreme Durations and Magnitudes of Solar Eclipses: 2601 to 2700 | |||
| Extrema Type | Date | Duration | Magnitude |
| Longest Annular Solar Eclipse | 2690 Jan 02 | 09m17s | - |
| Shortest Annular Solar Eclipse | 2650 Feb 22 | 00m09s | - |
| Longest Total Solar Eclipse | 2603 Aug 28 | 06m02s | - |
| Shortest Total Solar Eclipse | 2676 Sep 29 | 00m33s | - |
| Longest Hybrid Solar Eclipse | 2667 Sep 10 | 01m22s | - |
| Shortest Hybrid Solar Eclipse | 2694 Oct 11 | 00m21s | - |
| Largest Partial Solar Eclipse | 2619 Apr 06 | - | 0.97812 |
| Smallest Partial Solar Eclipse | 2691 Dec 11 | - | 0.01142 |
During the century, 4 Saros series begin and 2 Saros Series end. The list below gives the year and Saros number of each of these events.
4 Saros Series begin [Year/Saros]: 2608/176 2655/177 2666/183 2691/182
2 Saros Series end [Year/Saros]: 2622/136 2633/137
The catalog below lists concise details and local circumstances at greatest eclipse[5] for every solar eclipse during the century. A description or explanation of each parameter listed in the catalog can be found in Key to Catalog of Solar Eclipses.
Several fields in the catalog link to web pages or files containing additional information for each eclipse. The following gives a brief explanation of each link.
TD of
Catalog Calendar Greatest Luna Saros Ecl. Ecl. Sun Path Central
Number Date Eclipse ΔT Num Num Type QLE Gamma Mag. Lat Long Alt Width Dur.
s ° ° ° km
10928 2601 Mar 26 13:43:55 1928 7436 139 T -t -0.9740 1.0091 58S 46E 12 142 00m35s
10929 2601 Sep 18 16:30:38 1930 7442 144 P -t 1.0746 0.8541 61N 32E 0
10930 2602 Mar 15 23:13:25 1932 7448 149 A -n -0.2814 0.9638 16S 150W 74 136 03m41s
10931 2602 Sep 08 05:31:32 1935 7454 154 T -n 0.2895 1.0572 21N 113E 73 196 04m39s
10932 2603 Mar 05 01:21:16 1937 7460 159 A p- 0.4345 0.9243 16N 158E 64 312 08m45s
10933 2603 Aug 28 22:20:26 1940 7466 164 T p- -0.4425 1.0737 14S 158W 64 264 06m02s
10934 2604 Feb 22 00:40:35 1942 7472 169 P t- 1.1150 0.7609 61N 111E 0
10935 2604 Jul 19 05:14:31 1944 7477 136 P -t 1.4062 0.2509 64N 109W 0
10936 2604 Aug 17 14:18:38 1945 7478 174 P t- -1.2058 0.6216 62S 89W 0
10937 2605 Jan 11 15:01:06 1947 7483 141 P -t -1.0928 0.8207 64S 110E 0
10938 2605 Jul 08 12:23:21 1949 7489 146 A -p 0.6873 0.9626 64N 24E 46 186 03m03s
10939 2606 Jan 01 04:53:56 1951 7495 151 T -n -0.3828 1.0428 45S 120E 67 155 03m20s
10940 2606 Jun 27 13:34:39 1954 7501 156 A nn -0.0720 0.9477 19N 15W 86 193 06m52s
10941 2606 Dec 21 20:37:56 1956 7507 161 T n- 0.2888 1.0387 7S 124W 73 135 03m50s
10942 2607 Jun 16 15:28:35 1959 7513 166 A p- -0.8258 0.9664 33S 47W 34 216 03m47s
10943 2607 Dec 11 09:32:40 1961 7519 171 P p- 1.0127 0.9607 67N 41E 0
10944 2608 May 06 14:45:32 1963 7524 138 P -t 1.0954 0.8288 70N 179W 0
10945 2608 Jun 04 23:55:35 1964 7525 176 Pb t- -1.5249 0.0294 67S 168W 0
10946 2608 Oct 30 22:37:25 1966 7530 143 P -t -1.1828 0.6469 71S 69E 0
10947 2609 Apr 26 06:54:26 1968 7536 148 T -n 0.3627 1.0665 34N 78E 69 233 05m23s
10948 2609 Oct 19 22:18:05 1971 7542 153 A -p -0.4734 0.9375 37S 159W 62 263 06m53s
10949 2610 Apr 15 22:55:08 1973 7548 158 T n- -0.3537 1.0387 10S 150W 69 138 03m44s
10950 2610 Oct 09 02:17:27 1975 7554 163 A n- 0.2737 0.9849 9N 155E 74 55 01m41s
10951 2611 Apr 05 10:13:05 1978 7560 168 P t- -1.1251 0.7564 72S 107E 0
10952 2611 Sep 28 13:41:25 1980 7566 173 T t- 0.9859 1.0280 70N 40E 9 630 01m42s
10953 2612 Feb 23 19:55:50 1982 7571 140 P -t 1.1076 0.7697 72N 166W 0
10954 2612 Aug 18 22:35:27 1985 7577 145 T -t -0.8629 1.0629 45S 167W 30 407 04m45s
10955 2613 Feb 11 19:51:44 1987 7583 150 A -n 0.4076 0.9382 10N 112W 66 250 08m00s
10956 2613 Aug 08 13:32:05 1990 7589 155 T nn -0.1292 1.0300 9N 15W 83 102 03m07s
10957 2614 Feb 01 01:55:16 1992 7595 160 A n- -0.3058 0.9897 35S 166E 72 38 01m00s
10958 2614 Jul 28 22:14:49 1995 7601 165 A p- 0.6680 0.9721 60N 132W 48 135 02m21s
10959 2615 Jan 21 14:42:02 1997 7607 170 T t- -0.9651 1.0241 82S 99E 14 328 01m17s
10960 2615 Jun 18 09:17:56 1999 7612 137 P -t -1.4053 0.2689 66S 66E 0
10961 2615 Jul 18 00:19:58 2000 7613 175 P t- 1.4533 0.1869 68N 8W 0
10962 2615 Dec 12 19:30:54 2002 7618 142 P -t 1.0802 0.8524 65N 82W 0
10963 2616 Jun 06 12:37:18 2004 7624 147 A -p -0.6115 0.9824 14S 6E 52 78 02m04s
10964 2616 Dec 01 06:53:19 2007 7630 152 A -p 0.4156 0.9772 2N 88E 65 89 02m39s
10965 2617 May 26 23:01:04 2009 7636 157 T n- 0.1741 1.0394 31N 161W 80 134 03m30s
10966 2617 Nov 20 11:07:13 2012 7642 162 A n- -0.2995 0.9339 36S 11E 72 258 07m11s
10967 2618 May 16 14:44:47 2014 7648 167 T t- 0.8919 1.0612 71N 97W 27 447 03m24s
10968 2618 Nov 09 10:39:32 2016 7654 172 A- t- -1.0033 0.9474 62S 101W 0
10969 2619 Apr 06 21:51:02 2019 7659 139 P -t -1.0108 0.9781 61S 61W 0
10970 2619 Sep 30 00:02:28 2021 7665 144 P -t 1.1256 0.7620 61N 89W 0
10971 2620 Mar 26 07:06:11 2023 7671 149 A -p -0.3125 0.9636 14S 92E 72 138 03m46s
10972 2620 Sep 18 13:15:47 2026 7677 154 T -n 0.3476 1.0565 19N 2W 70 198 04m35s
10973 2621 Mar 15 09:03:08 2028 7683 159 A p- 0.4080 0.9260 19N 43E 66 301 08m20s
10974 2621 Sep 08 06:02:19 2031 7689 164 T n- -0.3793 1.0713 14S 87E 68 249 05m45s
10975 2622 Mar 04 08:34:43 2033 7695 169 P t- 1.0946 0.7963 61N 15W 0
10976 2622 Jul 30 12:18:09 2035 7700 136 Pe -t 1.4872 0.1039 63N 136E 0
10977 2622 Aug 28 21:41:59 2036 7701 174 P t- -1.1408 0.7425 62S 152E 0
TD of
Catalog Calendar Greatest Luna Saros Ecl. Ecl. Sun Path Central
Number Date Eclipse ΔT Num Num Type QLE Gamma Mag. Lat Long Alt Width Dur.
s ° ° ° km
10978 2623 Jan 22 23:41:24 2038 7706 141 P -t -1.0937 0.8199 63S 29W 0
10979 2623 Jul 19 19:00:06 2040 7712 146 A -p 0.7738 0.9589 67N 60W 39 235 03m10s
10980 2624 Jan 12 13:45:09 2043 7718 151 T -n -0.3874 1.0433 44S 8W 67 157 03m21s
10981 2624 Jul 07 20:02:10 2045 7724 156 Am nn 0.0150 0.9487 23N 110W 89 188 06m24s
10982 2625 Jan 01 05:25:27 2048 7730 161 T n- 0.2829 1.0361 7S 105E 74 126 03m32s
10983 2625 Jun 26 22:15:44 2050 7736 166 A p- -0.7444 0.9720 25S 151W 42 150 03m17s
10984 2625 Dec 21 18:00:12 2053 7742 171 P p- 1.0058 0.9710 66N 96W 0
10985 2626 May 17 22:28:40 2055 7747 138 P -t 1.1476 0.7318 69N 53E 0
10986 2626 Jun 16 07:13:26 2055 7748 176 P t- -1.4523 0.1621 66S 72E 0
10987 2626 Nov 11 06:08:45 2057 7753 143 P -t -1.2180 0.5874 70S 56W 0
10988 2627 May 07 14:52:04 2060 7759 148 T -p 0.4129 1.0688 41N 41W 65 246 05m22s
10989 2627 Oct 31 05:43:51 2062 7765 153 A -p -0.5140 0.9358 44S 89E 59 278 06m44s
10990 2628 Apr 26 06:52:57 2065 7771 158 T n- -0.3105 1.0392 4S 89E 72 138 03m53s
10991 2628 Oct 19 09:57:24 2067 7777 163 A n- 0.2284 0.9854 3N 39E 77 53 01m39s
10992 2629 Apr 15 17:56:38 2070 7783 168 P t- -1.0887 0.8209 71S 22W 0
10993 2629 Oct 08 21:35:29 2072 7789 173 T t- 0.9363 1.0312 59N 106W 20 302 02m10s
10994 2630 Mar 06 03:42:09 2075 7794 140 P -t 1.1288 0.7350 72N 64E 0
10995 2630 Aug 30 06:10:52 2077 7800 145 T -t -0.9302 1.0568 56S 69E 21 514 03m53s
10996 2631 Feb 23 03:55:11 2080 7806 150 A -p 0.4211 0.9419 14N 126E 65 236 07m13s
10997 2631 Aug 19 20:47:03 2082 7812 155 T -n -0.2025 1.0249 1N 125W 78 86 02m36s
10998 2632 Feb 12 10:25:37 2085 7818 160 A n- -0.2969 0.9938 31S 40E 73 23 00m36s
10999 2632 Aug 08 04:59:27 2087 7824 165 A p- 0.5886 0.9695 51N 126E 54 136 02m49s
11000 2633 Jan 31 23:31:25 2090 7830 170 T t- -0.9592 1.0266 80S 65W 16 332 01m27s
11001 2633 Jun 28 15:48:41 2092 7835 137 Pe -t -1.4864 0.1291 67S 41W 0
11002 2633 Jul 28 06:45:14 2092 7836 175 P t- 1.3679 0.3330 69N 116W 0
11003 2633 Dec 23 04:12:15 2094 7841 142 P -t 1.0909 0.8313 66N 138E 0
11004 2634 Jun 17 19:34:22 2097 7847 147 A -p -0.6854 0.9862 20S 99W 47 67 01m36s
11005 2634 Dec 12 15:11:13 2099 7853 152 A -p 0.4303 0.9723 2N 37W 64 110 03m19s
11006 2635 Jun 07 06:28:22 2102 7859 157 T nn 0.1063 1.0447 29N 90E 84 150 04m04s
11007 2635 Dec 01 18:56:55 2104 7865 162 A nn -0.2774 0.9302 37S 104W 74 272 07m47s
11008 2636 May 26 22:30:53 2107 7871 167 T p- 0.8322 1.0661 72N 165E 33 392 03m48s
11009 2636 Nov 19 18:16:59 2109 7877 172 As t- -0.9719 0.9164 71S 163E 13 - 05m33s
11010 2637 Apr 17 05:51:33 2111 7882 139 P -t -1.0525 0.9013 62S 171E 0
11011 2637 Oct 10 07:42:11 2114 7888 144 P -t 1.1709 0.6802 61N 148E 0
11012 2638 Apr 06 14:50:17 2117 7894 149 A -p -0.3500 0.9635 12S 23W 69 140 03m52s
11013 2638 Sep 29 21:06:37 2119 7900 154 T -n 0.4007 1.0554 18N 118W 66 198 04m31s
11014 2639 Mar 26 16:36:39 2122 7906 159 A p- 0.3749 0.9281 21N 70W 68 288 07m58s
11015 2639 Sep 19 13:50:24 2124 7912 164 T n- -0.3212 1.0683 15S 29W 71 234 05m28s
11016 2640 Mar 14 16:21:09 2127 7918 169 P t- 1.0672 0.8439 61N 140W 0
11017 2640 Sep 08 05:10:48 2129 7924 174 P t- -1.0807 0.8532 61S 31E 0
11018 2641 Feb 02 08:20:04 2131 7929 141 P -t -1.0971 0.8150 63S 168W 0
11019 2641 Jul 30 01:35:56 2134 7935 146 A -t 0.8602 0.9545 68N 140W 30 326 03m20s
11020 2642 Jan 22 22:36:33 2136 7941 151 T -n -0.3923 1.0443 41S 138W 67 160 03m24s
11021 2642 Jul 19 02:27:54 2139 7947 156 A nn 0.1040 0.9493 27N 156E 84 187 06m00s
11022 2643 Jan 12 14:14:06 2142 7953 161 T n- 0.2784 1.0341 6S 27W 74 119 03m18s
11023 2643 Jul 08 05:00:57 2144 7959 166 A p- -0.6602 0.9768 18S 107E 49 109 02m44s
11024 2644 Jan 02 02:31:07 2147 7965 171 A+ p- 1.0021 0.9759 65N 127E 0
11025 2644 May 28 06:05:58 2149 7970 138 P -t 1.2051 0.6236 68N 72W 0
11026 2644 Jun 26 14:29:01 2149 7971 176 P t- -1.3767 0.3016 66S 47W 0
11027 2644 Nov 21 13:47:29 2151 7976 143 P -t -1.2468 0.5390 69S 178E 0
TD of
Catalog Calendar Greatest Luna Saros Ecl. Ecl. Sun Path Central
Number Date Eclipse ΔT Num Num Type QLE Gamma Mag. Lat Long Alt Width Dur.
s ° ° ° km
11028 2645 May 17 22:43:18 2154 7982 148 T -p 0.4686 1.0707 47N 158W 62 261 05m16s
11029 2645 Nov 10 13:18:36 2156 7988 153 A -p -0.5477 0.9344 50S 24W 57 293 06m35s
11030 2646 May 07 14:41:46 2159 7994 158 T n- -0.2602 1.0396 2N 29W 75 137 04m00s
11031 2646 Oct 30 17:46:59 2161 8000 163 A n- 0.1902 0.9857 3S 79W 79 51 01m38s
11032 2647 Apr 27 01:30:49 2164 8006 168 P t- -1.0450 0.8980 71S 149W 0
11033 2647 Oct 20 05:38:03 2167 8012 173 T t- 0.8932 1.0324 51N 123E 26 243 02m27s
11034 2648 Mar 16 11:21:54 2169 8017 140 P -t 1.1552 0.6917 72N 65W 0
11035 2648 Sep 09 13:51:23 2171 8023 145 Ts -t -0.9929 1.0479 70S 79W 5 - 02m48s
11036 2649 Mar 05 11:55:21 2174 8029 150 A -p 0.4378 0.9460 19N 5E 64 220 06m25s
11037 2649 Aug 30 04:03:55 2176 8035 155 T -n -0.2732 1.0194 6S 124E 74 69 02m01s
11038 2650 Feb 22 18:53:59 2179 8041 160 A n- -0.2856 0.9984 26S 86W 73 6 00m09s
11039 2650 Aug 19 11:45:23 2182 8047 165 A p- 0.5110 0.9663 42N 24E 59 141 03m21s
11040 2651 Feb 12 08:17:28 2184 8053 170 T t- -0.9502 1.0298 77S 140E 18 332 01m41s
11041 2651 Aug 08 13:13:27 2187 8059 175 P t- 1.2844 0.4757 70N 136E 0
11042 2652 Jan 03 12:55:42 2189 8064 142 P -t 1.0995 0.8144 67N 3W 0
11043 2652 Jun 28 02:31:12 2191 8070 147 A -p -0.7603 0.9892 26S 155E 40 58 01m11s
11044 2652 Dec 22 23:31:17 2194 8076 152 A -p 0.4424 0.9680 3N 162W 64 128 03m56s
11045 2653 Jun 17 13:53:05 2197 8082 157 T nn 0.0356 1.0493 25N 19W 88 164 04m37s
11046 2653 Dec 12 02:51:33 2199 8088 162 A nn -0.2599 0.9271 38S 141E 75 284 08m21s
11047 2654 Jun 07 06:09:50 2202 8094 167 T p- 0.7665 1.0703 71N 70E 40 358 04m12s
11048 2654 Dec 01 02:03:29 2204 8100 172 A t- -0.9477 0.9165 76S 53E 18 1021 05m41s
11049 2655 Apr 28 13:40:56 2207 8105 139 P -t -1.1024 0.8094 62S 45E 0
11050 2655 May 27 22:51:50 2207 8106 177 Pb t- 1.5050 0.0543 64N 62E 0
11051 2655 Oct 21 15:32:13 2209 8111 144 P -t 1.2084 0.6123 62N 22E 0
11052 2656 Apr 16 22:23:12 2212 8117 149 A -p -0.3957 0.9633 10S 136W 67 143 04m00s
11053 2656 Oct 10 05:06:01 2214 8123 154 T -n 0.4468 1.0539 17N 122E 63 197 04m28s
11054 2657 Apr 06 00:01:46 2217 8129 159 A n- 0.3350 0.9305 24N 179E 70 274 07m38s
11055 2657 Sep 29 21:43:07 2219 8135 164 T n- -0.2675 1.0647 16S 147W 74 219 05m11s
11056 2658 Mar 26 00:02:23 2222 8141 169 P t- 1.0350 0.9002 61N 96E 0
11057 2658 Sep 19 12:42:52 2225 8147 174 P t- -1.0239 0.9564 61S 90W 0
11058 2659 Feb 13 16:57:15 2227 8152 141 P -t -1.1020 0.8073 62S 55E 0
11059 2659 Aug 10 08:11:51 2229 8158 146 A -t 0.9454 0.9487 68N 147E 19 584 03m30s
11060 2660 Feb 03 07:27:31 2232 8164 151 T -n -0.3977 1.0457 38S 92E 66 165 03m30s
11061 2660 Jul 29 08:55:21 2235 8170 156 A nn 0.1914 0.9495 29N 62E 79 189 05m42s
11062 2661 Jan 22 23:02:23 2237 8176 161 T n- 0.2740 1.0324 4S 159W 74 113 03m04s
11063 2661 Jul 18 11:48:08 2240 8182 166 A p- -0.5766 0.9811 13S 5E 55 81 02m12s
11064 2662 Jan 12 11:02:26 2242 8188 171 A+ p- 0.9996 0.9787 64N 10W 0
11065 2662 Jun 08 13:38:43 2245 8193 138 P -t 1.2666 0.5068 67N 164E 0
11066 2662 Jul 07 21:43:23 2245 8194 176 P t- -1.2992 0.4460 65S 165W 0
11067 2662 Dec 02 21:32:54 2247 8199 143 P -t -1.2698 0.5007 68S 50E 0
11068 2663 May 29 06:28:21 2250 8205 148 T -p 0.5295 1.0719 54N 89E 58 276 05m07s
11069 2663 Nov 21 21:02:01 2252 8211 153 A -p -0.5747 0.9333 55S 137W 55 305 06m26s
11070 2664 May 17 22:22:49 2255 8217 158 T nn -0.2040 1.0395 8N 145W 78 135 04m02s
11071 2664 Nov 10 01:46:10 2258 8223 163 A n- 0.1591 0.9861 8S 160E 81 50 01m36s
11072 2665 May 07 08:55:09 2260 8229 168 As t- -0.9943 0.9668 66S 82E 4 - 02m35s
11073 2665 Oct 30 13:48:30 2263 8235 173 T p- 0.8563 1.0330 44N 6W 31 215 02m40s
11074 2666 Mar 27 18:53:07 2265 8240 140 P -t 1.1881 0.6371 72N 169E 0
11075 2666 Sep 20 21:37:08 2268 8246 145 P -t -1.0506 0.9186 72S 136E 0
11076 2666 Oct 20 05:56:28 2268 8247 183 Pb t- 1.5196 0.0226 71N 154E 0
11077 2667 Mar 16 19:47:40 2270 8252 150 A -p 0.4613 0.9506 25N 114W 62 203 05m36s
TD of
Catalog Calendar Greatest Luna Saros Ecl. Ecl. Sun Path Central
Number Date Eclipse ΔT Num Num Type QLE Gamma Mag. Lat Long Alt Width Dur.
s ° ° ° km
11078 2667 Sep 10 11:25:05 2273 8258 155 H -p -0.3393 1.0134 14S 12E 70 49 01m22s
11079 2668 Mar 05 03:17:08 2276 8264 160 H n- -0.2697 1.0035 21S 148E 74 13 00m21s
11080 2668 Aug 29 18:33:48 2278 8270 165 A p- 0.4360 0.9627 34N 80W 64 149 03m59s
11081 2669 Feb 22 17:00:38 2281 8276 170 T p- -0.9390 1.0333 72S 7W 20 333 01m58s
11082 2669 Aug 18 19:43:41 2283 8282 175 P t- 1.2020 0.6161 71N 26E 0
11083 2670 Jan 13 21:41:08 2286 8287 142 P -t 1.1061 0.8013 68N 145W 0
11084 2670 Jul 09 09:25:19 2288 8293 147 A -p -0.8379 0.9915 35S 48E 33 55 00m52s
11085 2671 Jan 03 07:55:01 2291 8299 152 A -p 0.4505 0.9643 4N 72E 63 144 04m27s
11086 2671 Jun 28 21:15:30 2293 8305 157 T nn -0.0374 1.0534 21N 128W 88 177 05m07s
11087 2671 Dec 23 10:50:32 2296 8311 162 A nn -0.2466 0.9246 38S 25E 76 294 08m52s
11088 2672 Jun 17 13:46:16 2299 8317 167 T p- 0.6987 1.0735 67N 29W 45 335 04m36s
11089 2672 Dec 11 09:56:21 2301 8323 172 A p- -0.9286 0.9165 81S 59W 21 874 05m47s
11090 2673 May 08 21:23:23 2304 8328 139 P -t -1.1574 0.7080 63S 79W 0
11091 2673 Jun 07 06:25:46 2304 8329 177 P t- 1.4460 0.1665 65N 60W 0
11092 2673 Oct 31 23:29:55 2306 8334 144 P -t 1.2404 0.5544 62N 106W 0
11093 2674 Apr 28 05:47:47 2309 8340 149 A -p -0.4477 0.9631 10S 113E 63 147 04m09s
11094 2674 Oct 21 13:13:05 2312 8346 154 T -p 0.4869 1.0522 15N 1E 61 196 04m25s
11095 2675 Apr 17 07:16:48 2314 8352 159 A nn 0.2868 0.9331 25N 72E 73 259 07m23s
11096 2675 Oct 11 05:43:47 2317 8358 164 T n- -0.2206 1.0608 18S 94E 77 204 04m54s
11097 2676 Apr 05 07:35:27 2319 8364 169 An t- 0.9952 0.9336 62N 17W 4 - 04m25s
11098 2676 Sep 29 20:20:52 2322 8370 174 T t- -0.9725 1.0089 60S 173E 13 134 00m33s
11099 2677 Feb 24 01:29:55 2324 8375 141 P -t -1.1113 0.7915 62S 82W 0
11100 2677 Aug 20 14:50:18 2327 8381 146 P -t 1.0277 0.9182 62N 81E 0
11101 2678 Feb 13 16:14:59 2330 8387 151 T -n -0.4062 1.0475 35S 39W 66 172 03m38s
11102 2678 Aug 09 15:23:56 2332 8393 156 A nn 0.2782 0.9492 30N 32W 74 194 05m30s
11103 2679 Feb 03 07:49:00 2335 8399 161 T n- 0.2685 1.0312 2S 70E 74 109 02m54s
11104 2679 Jul 29 18:37:06 2338 8405 166 A p- -0.4933 0.9846 9S 97W 60 62 01m44s
11105 2680 Jan 23 19:32:56 2340 8411 171 An p- 0.9970 0.9636 62N 144W 2 - 02m46s
11106 2680 Jun 18 21:08:08 2342 8416 138 P -t 1.3315 0.3827 66N 42E 0
11107 2680 Jul 18 04:58:41 2343 8417 176 P t- -1.2212 0.5923 64S 77E 0
11108 2680 Dec 13 05:25:03 2345 8422 143 P -t -1.2874 0.4715 67S 78W 0
11109 2681 Jun 08 14:07:31 2348 8428 148 T -p 0.5953 1.0724 60N 21W 53 294 04m54s
11110 2681 Dec 02 04:53:55 2350 8434 153 A -p -0.5952 0.9326 59S 110E 53 314 06m18s
11111 2682 May 29 05:56:13 2353 8440 158 T nn -0.1419 1.0390 14N 101E 82 132 03m59s
11112 2682 Nov 21 09:54:31 2356 8446 163 A n- 0.1351 0.9866 12S 38E 82 48 01m32s
11113 2683 May 18 16:10:08 2358 8452 168 A p- -0.9366 0.9706 50S 43W 20 305 02m44s
11114 2683 Nov 10 22:07:55 2361 8458 173 T p- 0.8266 1.0331 38N 135W 34 198 02m49s
11115 2684 Apr 07 02:17:17 2363 8463 140 P -t 1.2265 0.5732 72N 44E 0
11116 2684 Oct 01 05:28:03 2366 8469 145 P -t -1.1036 0.8161 72S 5E 0
11117 2684 Oct 30 14:11:22 2367 8470 183 P t- 1.4864 0.0875 71N 17E 0
11118 2685 Mar 27 03:35:09 2369 8475 150 A -p 0.4895 0.9554 31N 127E 61 185 04m48s
11119 2685 Sep 20 18:50:12 2371 8481 155 H -p -0.4011 1.0071 22S 102W 66 27 00m42s
11120 2686 Mar 16 11:34:58 2374 8487 160 H n- -0.2486 1.0090 15S 23E 76 32 00m54s
11121 2686 Sep 10 01:25:58 2377 8493 165 A p- 0.3646 0.9587 25N 175E 68 160 04m41s
11122 2687 Mar 06 01:38:13 2379 8499 170 T p- -0.9230 1.0374 67S 149W 22 330 02m19s
11123 2687 Aug 30 02:19:46 2382 8505 175 P t- 1.1238 0.7490 72N 86W 0
11124 2688 Jan 25 06:24:18 2384 8510 142 P -t 1.1141 0.7860 69N 73E 0
11125 2688 Jul 19 16:22:31 2387 8516 147 A -p -0.9136 0.9926 46S 61W 24 64 00m41s
11126 2689 Jan 13 16:18:41 2390 8522 152 A -p 0.4578 0.9612 6N 55W 63 158 04m52s
11127 2689 Jul 09 04:36:31 2392 8528 157 Tm nn -0.1123 1.0568 16N 122E 84 188 05m31s
TD of
Catalog Calendar Greatest Luna Saros Ecl. Ecl. Sun Path Central
Number Date Eclipse ΔT Num Num Type QLE Gamma Mag. Lat Long Alt Width Dur.
s ° ° ° km
11128 2690 Jan 02 18:52:25 2395 8534 162 A nn -0.2360 0.9226 37S 93W 76 301 09m17s
11129 2690 Jun 28 21:18:07 2398 8540 167 T p- 0.6272 1.0759 62N 131W 51 317 05m00s
11130 2690 Dec 22 17:55:30 2401 8546 172 A p- -0.9140 0.9168 85S 167W 23 795 05m52s
11131 2691 May 20 04:55:09 2403 8551 139 P -t -1.2203 0.5922 63S 159E 0
11132 2691 Jun 18 13:52:32 2403 8552 177 P t- 1.3818 0.2885 66N 178E 0
11133 2691 Nov 12 07:38:14 2405 8557 144 P -t 1.2646 0.5105 63N 123E 0
11134 2691 Dec 11 21:05:53 2406 8558 182 Pb t- -1.5501 0.0114 65S 76E 0
11135 2692 May 08 13:02:03 2408 8563 149 A -p -0.5074 0.9627 11S 5E 59 155 04m21s
11136 2692 Oct 31 21:27:40 2411 8569 154 T -p 0.5212 1.0503 14N 123W 58 193 04m23s
11137 2693 Apr 27 14:23:45 2414 8575 159 A nn 0.2320 0.9359 26N 33W 76 245 07m12s
11138 2693 Oct 21 13:50:36 2416 8581 164 T n- -0.1793 1.0566 20S 26W 80 189 04m37s
11139 2694 Apr 16 15:01:10 2419 8587 169 A t- 0.9489 0.9422 63N 106W 18 679 04m05s
11140 2694 Oct 11 04:04:20 2422 8593 174 H p- -0.9263 1.0054 60S 67E 22 49 00m21s
11141 2695 Mar 07 09:58:56 2424 8598 141 P -t -1.1242 0.7693 61S 143E 0
11142 2695 Aug 31 21:32:02 2427 8604 146 P -t 1.1064 0.7816 61N 27W 0
11143 2696 Feb 25 00:58:48 2429 8610 151 T -n -0.4179 1.0496 31S 169W 65 180 03m48s
11144 2696 Aug 19 21:57:56 2432 8616 156 A -p 0.3608 0.9485 31N 128W 69 201 05m24s
11145 2697 Feb 13 16:33:04 2435 8622 161 T n- 0.2612 1.0305 1N 61W 75 106 02m46s
11146 2697 Aug 09 01:29:22 2437 8628 166 A p- -0.4116 0.9877 7S 160E 66 47 01m20s
11147 2698 Feb 03 04:01:19 2440 8634 171 An p- 0.9933 0.9625 59N 86E 5 - 02m52s
11148 2698 Jun 30 04:35:43 2442 8639 138 P -t 1.3983 0.2539 65N 80W 0
11149 2698 Jul 29 12:15:55 2443 8640 176 P t- -1.1437 0.7385 63S 41W 0
11150 2698 Dec 24 13:21:08 2445 8645 143 P -t -1.3014 0.4485 66S 153E 0
11151 2699 Jun 19 21:42:32 2448 8651 148 T -p 0.6645 1.0720 65N 127W 48 314 04m38s
11152 2699 Dec 13 12:52:50 2451 8657 153 A -p -0.6106 0.9325 61S 2W 52 320 06m08s
11153 2700 Jun 09 13:23:20 2453 8663 158 Tm nn -0.0753 1.0379 19N 11W 86 128 03m49s
11154 2700 Dec 02 18:09:37 2456 8669 163 A n- 0.1159 0.9874 15S 85W 83 45 01m26s
Detailed maps of all annular, total and hybrid eclipses during the 27th century CE can be found at the World Atlas of Solar Eclipse Paths. The maps are broken down into 20 year intervals and may be accessed through the links below. Each map is stored in GIF format with a typical file size of 130 kilobytes.
| World Atlas of Solar Eclipse Paths | |||||
| 27th century CE | 2601-2620 | 2621-2640 | 2641-2660 | 2661-2680 | 2681-2700 |
|---|---|---|---|---|---|
Each link below displays a web page containing 100 years of solar eclipses. Every eclipse has links of global maps, central paths plotted on Google Maps, Saros series tables, and Besselian elements.
These web pages are part of the Five Millennium Catalog of Solar Eclipses: -1999 to +3000
The Gregorian calendar is used for all dates from 1582 Oct 15 onwards. Before that date, the Julian calendar is used. For more information on this topic, see Calendar Dates. The Julian calendar does not include the year 0. Thus the year 1 BCE is followed by the year 1 CE (See: BCE/CE Dating Conventions ). This is awkward for arithmetic calculations. Years in this catalog are numbered astronomically and include the year 0. Historians should note there is a difference of one year between astronomical dates and BCE dates. Thus, the astronomical year 0 corresponds to 1 BCE, and astronomical year -1 corresponds to 2 BCE, etc..
The coordinates of the Sun used in these predictions are based on the VSOP87 theory [Bretagnon and Francou, 1988]. The Moon's coordinates are based on the ELP-2000/82 theory [Chapront-Touze and Chapront, 1983]. For more information, see: Solar and Lunar Ephemerides. The revised value used for the Moon's secular acceleration is n-dot = -25.858 arc-sec/cy*cy, as deduced from the Apollo lunar laser ranging experiment (Chapront, Chapront-Touze, and Francou, 2002).
The largest uncertainty in the eclipse predictions is caused by fluctuations in Earth's rotation due primarily to tidal friction of the Moon. The resultant drift in apparent clock time is expressed as ΔT and is determined as follows:
A series of polynomial expressions have been derived to simplify the evaluation of ΔT for any time from -1999 to +3000. The uncertainty in ΔT over this period can be estimated from scatter in the measurements.
[1] The Moon's orbit is inclined about 5.1° to Earth's orbit around the Sun. The points where the lunar orbit intersects the plane of Earth's orbit are known as the nodes. The Moon moves from south to north of Earth's orbit at the ascending node, and from north to south at the descending node.
[2] Hybrid eclipses are also known as annular/total eclipses. Such an eclipse is both total and annular along different sections of its umbral path. (See: Five Millennium Catalog of Hybrid Solar Eclipses)
[3] Central solar eclipses are eclipses in which the central axis of the Moon's shadow strikes the Earth's surface. All partial (penumbral) eclipses are non-central eclipses since the shadow axis misses Earth. However, umbral eclipses (total, annular and hybrid) may be either central (usually) or non-central (rarely).
[4] The terms BCE and CE are abbreviations for "Before Common Era" and "Common Era," respectively. They are the secular equivalents to the BC and AD dating conventions. (See: Year Dating Conventions )
[5] Greatest eclipse is defined as the instant when the axis of the Moon's shadow passes closest to the Earth's center. For total eclipses, the instant of greatest eclipse is virtually identical to the instants of greatest magnitude and greatest duration. However, for annular eclipses, the instant of greatest duration may occur at either the time of greatest eclipse or near the sunrise and sunset points of the eclipse path.
The information presented on this web page is based on data published in Five Millennium Canon of Solar Eclipses: -1999 to +3000 and Five Millennium Catalog of Solar Eclipses: -1999 to +3000. The individual global maps appearing in links were extracted from full page plates appearing in Five Millennium Canon by Dan McGlaun. The Besselian elements were provided by Jean Meeus. Fred Espenak assumes full responsibility for the accuracy of all eclipse calculations.
Permission is freely granted to reproduce this data when accompanied by an acknowledgment:
"Eclipse Predictions by Fred Espenak (NASA's GSFC)"
